1. | \(4v\) | 2. | \(8v\) |
3. | \(v\) | 4. | \(2v\) |
1. | \(10~\Omega \) | 2. | \(5~\Omega \) |
3. | \(40~\Omega \) | 4. | \(20~\Omega \) |
The given circuit shows a uniform straight wire \(AB\) of \(40 ~\text{cm}\) length fixed at both ends. In order to get zero reading in the galvanometer \(G,\) the free end of \(J\) is to be placed from the end \(B\) at:
A. | (\(0\) to \(1~\text A\)) ranged ammeter. |
B. | (\(0\) to \(100~\text {mA}\)) ranged milli-ammeter. |
C. | (\(0\) to \(500~\mu\text A\)) ranged micro-ammeter. |
D. | (\(0\) to \(100~\text V\)) ranged voltmeter. |
1. | A > B > C > D | 2. | D > C > B > A |
3. | D > A > B > C | 4. | C > B > A > D |
1. | \(\large\dfrac{t_1t_2}{t_1+t_2}\) | 2. | \(t_1+t_2\) |
3. | \({\large\dfrac12}(t_1+t_2)\) | 4. | \(\large\dfrac{t_1t_2}{2(t_1+t_2)}\) |
1. | \(12~\Omega\) | 2. | \(9~ \Omega\) |
3. | \(3~ \Omega\) | 4. | \(2~ \Omega\) |